KR20180000782U - Oxygen supply apparatus for fish farm - Google Patents

Abstract

The present invention relates to an oxygen supply apparatus for supplying dissolved oxygen to a fish tank of a fish farm, and more particularly, to a system for generating dissolved water during a process of passing bubbles and water through a dissolved water generating unit during a process of supplying bubbles and water to a pressure tank, And the dissolved water is discharged to the fish farm through the discharge pipe naturally as the air pressure of the pressure tank is increased.
In order to solve the above problems, the oxygen supply device for fish farms of the present invention includes a pressure tank to which dissolved water and oxygen are supplied; A water supply pipe for supplying water to the inside of the pressure tank, one side being connected to the amphibious pump and the other side being disposed on the upper side of the pressure tank; An oxygen supply pipe having one side connected to the oxygen generator and the other side connected to the water supply pipe and supplying oxygen from one side to the other side; A dissolved water generating part formed at a connection part between the water supply pipe and the oxygen supply pipe, for supplying oxygen to the water flowing through the water supply pipe and generating dissolved water; A spray nozzle provided on the other side of the water supply pipe and spraying the dissolved water and oxygen from the upper portion to the lower portion of the pressure tank; And a drain pipe provided at one side of the pressure tank and connected to the interior of the fish farm. When the pressure of the air inside the pressure tank reaches a predetermined value, the dissolved water is supplied to the fish tank while the dissolved water flows into the drain pipe. .

Description

Technical Field [0001] The present invention relates to an oxygen supply device for fish farms,

The present invention relates to an oxygen supply device for supplying dissolved water to a water tank of an aquaculture farm, and more particularly to an oxygen supply device for generating dissolved water during a process of supplying bubbles and water to a pressure tank, And the dissolved water is discharged to the fish farm through the discharge pipe naturally as the air pressure of the pressure tank is increased.

The role of dissolved oxygen in large-sized fish farms that cultivate various fishes is a factor that can enhance the fish's resistance to disease and grow faster with lesser amounts of feed.

On the other hand, in the case of the water which has been stored for a long time as described above, the eutrophication phenomenon occurs in which the amount of nitrogen or phosphorus such as nutrients in the water increases. This is because the organic matter contained in the water is biochemically decomposed As a result, the dissolved oxygen dissolved in the water continues to be consumed. As a result, the oxygen in the water is deficient or disappears and the water is decayed.

Such an eutrophication phenomenon causes algae film or spoilage on the surface of the water, causing smell or fading, increasing the fluctuation range of dissolved oxygen around the night and reducing the dissolved oxygen to a very low concentration at night, Which increases the oxygen demand to reduce dissolved oxygen and is a serious problem that generates poisonous algae. Therefore, in fish farms that produce fish, water is circulated by using a pump, and dissolved oxygen is supplied to the water to increase the amount of dissolved oxygen, thereby preventing eutrophication.

Generally, a diffuser is used to supply dissolved oxygen to water, and Patent Document 10-1466840 discloses a conventional oxygen supply device for a fish farm using a diffuser.

A conventional oxygen supply device includes a cover having a shape in which a lower portion thereof is opened to form a space portion in which a certain space on a water surface of a water tank is separated from the outside air, A bubble oxygen sprayer for spraying bubbles in the lower side of the cover, and an oxygen supply source for supplying oxygen to the space of the cover, wherein a part of the bubbles ejected from the bubble oxygen sprayer is not water- And is reused.

Although the conventional oxygen supply device has the above-described structure and has an effect of reducing the waste of oxygen supplied to the water tank, since oxygen is supplied in a state where the oxygen supply device is installed in the water, when the size of the bubbles is not fine , There is a problem that the amount of bubbles dissolved in water is small and the dissolving efficiency is low. In addition, in order to dissolve a large amount of bubbles, the process of spraying oxygen must be repeatedly performed.

KR 10-1466840 (B1) 2014. 11. 24.

The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a method and apparatus for generating dissolved water in a process of passing bubbles and water through a dissolved water generating unit during a process of supplying bubbles and water to a pressure tank, And to allow the supplied dissolved water to be discharged to the fish farm through the discharge pipe naturally as the air pressure of the pressure tank increases.

Another object of the present invention is to provide an oxygen supply device for fish farms which is capable of generating dissolved water having a high dissolution rate as a large amount of bubbles are formed in oxygen dissolved in oxygen in the dissolved water generating section.

In order to solve the above problems, the oxygen supply device for fish farms of the present invention includes a pressure tank to which dissolved water and oxygen are supplied; A water supply pipe for supplying water to the inside of the pressure tank, one side being connected to the amphibious pump and the other side being disposed on the upper side of the pressure tank; An oxygen supply pipe having one side connected to the oxygen generator and the other side connected to the water supply pipe and supplying oxygen from one side to the other side; A dissolved water generating part formed at a connection part between the water supply pipe and the oxygen supply pipe, for supplying oxygen to the water flowing through the water supply pipe and generating dissolved water; A spray nozzle provided on the other side of the water supply pipe and spraying the dissolved water and oxygen from the upper portion to the lower portion of the pressure tank; And a drain pipe provided at one side of the pressure tank and connected to the interior of the fish farm. When the pressure of the air inside the pressure tank reaches a predetermined value, the dissolved water is supplied to the fish tank while the dissolved water flows into the drain pipe. .

On the other hand, the injection nozzle is arranged to spray in all directions inside the pressure tank.

Meanwhile, the dissolved water generating unit is disposed inside the water supply pipe so that an inlet port for storing the eluate is connected to the oxygen supply pipe, and an outlet port for storing the eluate gas discharges oxygen in the same flow direction as the water supply pipe, Make a mixture of oxygen and water in the area.

According to the present invention, the dissolved water accommodated in the pressure tank is discharged by the pressure for supplying water to the pressure tank, so that there is no need for a separate device for discharging and no power is required. The present invention has an effect of generating and supplying dissolved water within a short time.

According to the present invention, as the area of contact between water and oxygen increases, there is an advantage that dissolved water having a high dissolution rate can be generated within a short period of time.

1 is a sectional view of an oxygen supply device for fish farms according to the present invention;
2 is a sectional view of a dissolved water generating unit according to the present invention;
3 is a sectional view taken along the line A-A 'of the dissolved water generating unit according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The present invention relates to an oxygen supply device for supplying dissolved water to a water tank of a fish farm, and more particularly, to an oxygen supply device for supplying dissolved water to a water tank of a fish farm, Thereby allowing the dissolved water to be discharged to the fish farm through the discharge pipe 600 naturally as the air pressure of the pressure tank is increased.

2 is a cross-sectional view of the dissolved water generating unit according to the present invention, and FIG. 3 is a sectional view taken along the line A-A 'of the dissolved water generating unit according to the present invention.

Referring to FIG. 1, the present invention includes a pressure tank 100, a water supply pipe 200, an oxygen supply pipe 300, a dissolved water generating unit 400, a spray nozzle, and a discharge pipe.

The pressure tank 100 is formed of a cylindrical body having a space formed therein and having a predetermined height, and the generated dissolved water and oxygen are supplied and accommodated therein. A drain port 110 is formed on the lower side of the pressure tank 100. When a problem occurs in the pressure tank 100 or an amount of deposited foreign matter becomes a certain amount or more, the water or foreign matter And so on.

The water supply pipe 200 is a pipe for supplying water into the pressure tank 100 and has one side connected to the amphibious pump P and the other side connected to the upper portion of the pressure tank 100, P so that water flows from one side of the water supply pipe 200 to the other side.

The oxygen supply pipe 300 supplies oxygen to the water flowing through the water supply pipe 200. One end of the oxygen supply pipe 300 is connected to the oxygen generator 310 and the other end of the oxygen supply pipe 300 is connected to a water supply pipe. . At this time, the oxygen generator 310 is a device used for supplying oxygen in water, so a detailed description will be omitted.

The dissolved water generating unit 400 generates dissolved water to be supplied to the fish farms and is formed at a connection part between the water supply pipe 200 and the oxygen supply pipe 300. The dissolved water generated in the water flowing through the water supply pipe 200 To generate dissolved water.

At this time, some of the supplied oxygen is dissolved in the water flowing by the pressure inside the water supply pipe 200 to be dissolved, and the undissolved oxygen moves together with the flow of the dissolved water so that the inside of the pressure tank 100 .

On the other hand, the larger the contact area between the flowing water and the supplied oxygen is, the higher the dissolution rate is. Therefore, it is preferable that the dissolved water generating part 400 is formed to have a high dissolution rate. For this purpose, the dissolved water generating unit 400 includes an El storage 410, a venturi unit 420, and a bubble generating hole 430.

The El storage 410 is a pipe having a curvature and an inlet is connected to the oxygen supply pipe 300 and an outlet is disposed inside the water supply pipe 200 to discharge oxygen in the same flow direction as the water supply pipe 200 So that the oxygen delivered from the oxygen supply pipe 300 is supplied to the water supply pipe 200 so that water and oxygen are mixed in the adjacent area of the discharge port of the El storage 410. At this time, the discharge port of the El storage 410 is disposed so as to be concentric with the water supply pipe 200.

The venturi unit 420 generates a venturi effect in the water supply pipe 200 and is formed on the water supply pipe 200 by a spherical surface curved toward the center axis of the water supply pipe 200, The cross-sectional area of the water supply pipe 200 gradually decreases and then increases again, and is disposed between the inlet and outlet of the elastics storage 410.

The bubble generating hole 430 is for supplying oxygen primarily to the water flowing in the water supply pipe 200. The bubble generating hole 430 is formed on the outer circumferential surface of the el storing 410 located in a section where the sectional area of the water supply pipe 200 gradually increases A plurality of radial holes are formed, and the cross-sectional area of the water supply pipe 200 is positioned adjacent to the smallest portion.

According to the above-described structure, water flowing in the dissolved water generating portion 400 is firstly generated in the water passing through the adjacent region of the bubble generating hole 430, So that a second number of dissolved water is generated while passing through the adjacent area.

For this purpose, the air pressure in the El storage 410 is made to have a pressure similar to the water pressure in the water supply pipe 200 or to have a relatively high pressure.

More specifically, water flowing into the dissolved water generating unit 400 passes between the venturi unit 420 and the el keeping unit 410. As described above, by the venturi unit 420, The pressure applied to the water passing through the venturi unit 420 gradually increases as the sectional area of the water supply pipe 200 gradually decreases toward the flow direction.

Then, the water continuously flows and flows through the section where the cross-sectional area of the water supply pipe 200 is the smallest, so that the cross-sectional area of the water supply pipe 200 gradually widens.

At this time, the water pressure of the flowing water is gradually increased in inverse proportion to the cross-sectional area of the water supply pipe 200, and the venturi phenomenon occurs suddenly as the pressure is suddenly decreased. The air pressure in the El storage 410, The air pressure in the El storage 410 is always higher than the water pressure of the water supply pipe 200 when the venturi phenomenon occurs.

Accordingly, some of the oxygen flowing into the eld storage 410 is discharged through the bubble generation hole 430 to the outside of the eld storage 410, that is, between the eld storage 410 and the water supply line 200 And the primary dissolved water is generated.

Thereafter, the primary dissolved water passes between the el keeping 410 and the water supply line 200, passes through the end of the el keeping 410, and at the same time, oxygen is discharged from the outlet end of the el keeping 410 And is supplied to the primary dissolved water.

Accordingly, in the adjoining region of the outlet of the EL storage 410, the secondary dissolved water is generated by naturally mixing by the pressure difference between oxygen and the primary dissolved water.

That is, according to the present invention, water flowing through the water supply pipe 200 is contacted with oxygen two times in the course of passing through the dissolved water generating unit 400, The area is increased, and the dissolution rate of the resulting dissolved water is further increased.

The injection nozzle 500 is for supplying dissolved water to the entire interior of the pressure tank 100 and is provided at the other end of the water supply pipe 200, Allow water and oxygen to be sprayed.

In this case, the injection nozzle 500 is formed in a spherical shape in which a large amount of through holes are formed, so that dissolved water and oxygen flowing through the water supply pipe 200 are sprayed in all directions in the upper portion of the pressure tank 100 .

The spray nozzle 500 is installed in the pressure tank 100 in the course of dropping the dissolved water from the upper part of the pressure tank 100 There is an effect that the dissolved water is supplied to the fish farms in a state where a larger amount of bubbles are generated as the water rubs against the dissolved water in the state. At this time, it is preferable that the injection nozzle 500 is positioned adjacent to the upper surface of the pressure tank 100.

The discharge pipe 600 is for supplying the dissolved water stored in the pressure tank 100 to the fish farm, and is provided inside the pressure tank 100, and the other side is connected to the fish farm.

According to the above configuration, the present invention allows the dissolved water contained in the pressure tank 100 to be discharged through the discharge pipe 600 to the fish farm.

More specifically, according to the present invention, water flows along the water supply pipe 200 according to the operation of the amphibious pump P, and at the same time oxygen is supplied from the oxygen generator 310. Thereafter, dissolved water having a high rate of dissolution is generated in the process of passing through the dissolved water generating unit 400, and the generated dissolved water is supplied to the pressure tank 100 through the injection nozzle 500.

At this time, when the dissolved water is supplied continuously, the water level in the pressure tank 100 is increased by the supplied dissolved water, the empty space of the pressure tank 100 is gradually reduced, and the dissolved oxygen The air pressure inside the pressure tank 100 rises as the density of the empty space inside the pressure tank is further increased.

When the air pressure exceeds a predetermined value, the dissolved dissolved water is discharged to the fish farm through the discharge pipe 600. The dissolved water is continuously supplied to the interior of the pressure tank 100, When the supply of the dissolved water is stopped, the amount of the discharged water gradually decreases. If the pressure of the air inside the pressure tank 100 becomes relatively lower than a predetermined value, .

At this time, the predetermined value is a value calculated by the volume of the pressure tank, the cross-sectional area of the discharge pipe, the length, the size of the atmospheric pressure, etc., and is a value changed according to the demand of the user.

According to the above configuration, the present invention allows the dissolved water contained in the pressure tank 100 to be discharged by the pressure for supplying water and oxygen to the pressure tank 100, There is an advantage in that the configuration is simple and the operation process is simple, so that the dissolved water can be generated and supplied in a short time.

Meanwhile, in the present invention, the dissolved water is discharged according to the change of the air pressure in the pressure tank 100, and in order to supply the dissolved water within a shorter time during the initial operation, a valve (not shown) ) May be formed.

Further, in the initial operation, in the state in which the valve is closed, the dissolved water is supplied to the pressure tank 100 so that the air pressure reaches a predetermined value within a short time, and then the valve is opened, To the fish farm.

While the preferred embodiments of the present invention have been described, it should be understood that the scope of the present invention is not limited thereto and that the scope of the present invention is substantially equivalent to that of the embodiments of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Pressure tank 110: Drain
200: Water supply pipe
300: oxygen generator
310: oxygen supply pipe
400: Dissolved water generation unit 410: El keeping
420: Venturi unit 430: Bubble generating hole
500: injection nozzle
600: discharge pipe
P: Pumping water pump

Claims (3)

A pressure tank 100 to which dissolved water and oxygen are supplied;
A water supply pipe 200 connected to one side of the amphibious pump P and the other side of which is disposed above the pressure tank 100 and supplies water into the pressure tank 100;
An oxygen supply pipe 300 having one side connected to the oxygen generator 310 and the other side connected to the water supply pipe 200 and supplying oxygen from one side to the other side;
A dissolved water generating part 400 formed at a connection part between the water supply pipe 200 and the oxygen supply pipe 300 for supplying oxygen to the water flowing through the water supply pipe 200 and generating dissolved water;
An injection nozzle (500) provided on the other side of the water supply pipe (200) for injecting oxygen and dissolved water into the pressure tank (100);
A discharge pipe (600) provided at one side of the pressure tank (100) and connected to the interior of the fish farm;
Wherein when the air pressure inside the pressure tank (100) reaches a predetermined value, the dissolved water flows into the discharge pipe (600) and is supplied to the fish farm.
The method according to claim 1,
The injection nozzle (500)
Is formed to be sprayed in all directions inside the pressure tank (100).
The method according to claim 1,
The dissolved-water generating unit 400,
The inlet of the eluant storage unit 410 is connected to the oxygen supply line 300 and the outlet of the eluant storage unit 410 is disposed inside the water supply line 200 so as to discharge oxygen in the same flow direction as the water supply line 200 , And oxygen and water are mixed in an adjacent area of the discharge port of the El storage (410).

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